Add to ORKGNew methods for the analysis of electrically-evoked compound action potentials (eCAPs) are described. Mammalian nerves tend to have broad multi-modal distributions of fibre diameters, which translates into a spread of conduction velocities. The method of velocity selective recording (VSR) is unable to distinguish between this spectral spread and the transfer function of the system. The concept of the velocity impulse function (VIF) is introduced as a tool to differentiate between these signal and system attributes. The new methods enable separate estimates of velocity spectral broadening and signal-to-noise ratio (SNR) to be obtained
Introduction: Despite its central role in medicine electrical stimulation (ES) is still limited by i...
The conduction velocity (CV) of action potentials along axons is a key neurophysiological property c...
In order to get early information on the functional state of smaller myelinated fibers this article ...
New methods for the analysis of electrically-evoked compound action potentials (eCAPs) are described...
Objective. We investigate the ability of the method of velocity selective recording (VSR) to determi...
Decoding information from the peripheral nervous system via implantable neural interfaces remains a ...
Nerve conduction velocity distribution (CVD) is a very useful tool to examine the state and function...
The ability to determine the characteristics of peripheral nerve fiber size distributions would prov...
Abstract—A conduction velocity distribution (CVD) estimator that incorporates volume conductor model...
Nerve conduction studies (NCS) are one of the basic tools of the electrodiagnostic clinician and are...
The ability to determine the characteristics of peripheral nerve fiber size distributions would prov...
In this paper, velocity filtering is applied to somatosensory evoked potential (SEP) measurements to...
poster abstractAdvanced neuroprosthetic electrodes are indwelling devices that are being developed t...
In this paper, velocity filtering is applied to somatosensory evoked potential (SEP) measurements to...
Much of the electrophysiological work on C-fibres has been carried out using microelectrodes to reco...
Introduction: Despite its central role in medicine electrical stimulation (ES) is still limited by i...
The conduction velocity (CV) of action potentials along axons is a key neurophysiological property c...
In order to get early information on the functional state of smaller myelinated fibers this article ...
New methods for the analysis of electrically-evoked compound action potentials (eCAPs) are described...
Objective. We investigate the ability of the method of velocity selective recording (VSR) to determi...
Decoding information from the peripheral nervous system via implantable neural interfaces remains a ...
Nerve conduction velocity distribution (CVD) is a very useful tool to examine the state and function...
The ability to determine the characteristics of peripheral nerve fiber size distributions would prov...
Abstract—A conduction velocity distribution (CVD) estimator that incorporates volume conductor model...
Nerve conduction studies (NCS) are one of the basic tools of the electrodiagnostic clinician and are...
The ability to determine the characteristics of peripheral nerve fiber size distributions would prov...
In this paper, velocity filtering is applied to somatosensory evoked potential (SEP) measurements to...
poster abstractAdvanced neuroprosthetic electrodes are indwelling devices that are being developed t...
In this paper, velocity filtering is applied to somatosensory evoked potential (SEP) measurements to...
Much of the electrophysiological work on C-fibres has been carried out using microelectrodes to reco...
Introduction: Despite its central role in medicine electrical stimulation (ES) is still limited by i...
The conduction velocity (CV) of action potentials along axons is a key neurophysiological property c...
In order to get early information on the functional state of smaller myelinated fibers this article ...